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All Journal Jurnal Pengabdian dan Pemberdayaan Masyarakat Indonesia
Dhiya Uddin Rijalusalam
Universitas Muhammadiyah Yogyakarta, Yogyakarta, Indonesia
Humanities Education Engineering Public Health Social Sciences

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Empowerment of mosque community with ultraviolet light sterilisator robot Iswanto Suwarno; Nia Maharani Raharja; Alfian Ma’arif; Arya Adiningrat; Adhianty Nurjanah; Dhiya Uddin Rijalusalam; Carlos Sánchez-López
Jurnal Pengabdian dan Pemberdayaan Masyarakat Indonesia Vol. 1 No. 3 (2021)
Publisher : Peneliti Teknologi Teknik Indonesia

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.59247/jppmi.v1i3.12

Abstract

The first case of the COVID-19 disease was reported in Wuhan. Indonesia is also one of the countries affected by the COVID-19 pandemic. This case was first detected in two patients in Jakarta. The spread of the COVID-19 virus is so fast and spreads to all regions in Indonesia. Due to the rapid spread of the virus, efforts are needed to prevent it from spreading. Several local governments in Indonesia have implemented a lock down system to cut the spread of the COVID virus. Entering a new era, the government urges the public to adopt a new way of life to prevent wider transmission while preventing infection, namely wearing masks, maintaining distance, maintaining cleanliness, especially hands. The government's call to enter a new era was also followed by the mosque. However, this appeal is very difficult to implement for the new era because the mosque does not yet have a sterilizer to kill bacteria and germs. The sterilizer is used to sterilize the floor of the mosque. The service team tries to offer solutions to these problems with a touch of science and technology through community empowerment programs. The solution is offered with an ultraviolet lamp mounted on a sterilizing robot that can be remotely controlled. Ultraviolet lamp sterilizer robot is able to sterilize the floor of the mosque and the walls of the mosque.
Empowerment of mushroom farming communities with iot based monitoring in Karang Kepanjen, Sleman Iswanto Suwarno; Nia Maharani Raharja; Alfian Maarif; Muhammad Abdus Shomad; Adhianty Nurjanah; Dhiya Uddin Rijalusalam; Rachmad Andri Atmoko; Irfan Ahmad; Israa Al_barazanchi; Sashikala Mishra
Jurnal Pengabdian dan Pemberdayaan Masyarakat Indonesia Vol. 1 No. 5 (2021)
Publisher : Peneliti Teknologi Teknik Indonesia

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.59247/jppmi.v1i5.25

Abstract

Mugi Barokah “Mushroom Farmer UKM” is located in an agricultural area in Sleman Regency, precisely in Karang Kepanjen Hamlet, Trimulyo Village, Sleman District, Sleman Regency, Yogyakarta Special Region has been conducting mushroom cultivation activities since 2009. Mugi Barokah mushroom cultivation is led by Mr. Agus Arif Effendi. Actually, these SMEs have a large enough market opportunity for mushroom cultivation. However, this opportunity brings consequences and problems, namely the lack of a touch of innovation from the mushroom temperature and humidity monitoring system. The mushroom cultivation treatments they do include adjusting the intensity of the light by installing mosquito nets, adjusting the humidity of the mushroom room by spraying with water and to determine the temperature and humidity in the mushroom room by visual checking. Information about some of the problems faced by mushroom cultivation must of course be addressed as soon as possible as a solution for developing mushroom cultivation businesses. The team that proposes service as part of the community who happens to be involved in the world of education, feels compelled to help provide solutions to the problems faced by the mushroom farmer's business. Through this proposed science and technology activity program and based on the needs analysis that has been carried out, the service team tries to offer solutions to these problems with a touch of science and technology, namely through the main activity of designing remote mushroom monitoring with IoT technology. Temperature monitoring and control tool for mushroom fungus using an Arduino microcontroller, a DH11 sensor for temperature and humidity sensors and using IOT technology for remote monitoring. By using this tool the mushroom fungus can be monitored and controlled remotely using the Android application.
Co-Authors Adhianty Nurjanah Alfian Ma’arif Arya Adiningrat Carlos Sánchez-López Irfan Ahmad Israa Al_barazanchi Iswanto Suwarno Muhammad Abdus Shomad Nia Maharani Raharja Rachmad Andri Atmoko Sashikala Mishra